Los procesos involucrados en el desarrollo de estos bioproductos estarán interconectados de manera que la instalación demuestre ser una biorrefinería versátil y eficiente para la fracción orgánica. phase anaerobic digestion system at its Innovation Centre, which has a 100 m3 hydrolytic digester to produce volatile fatty acids and a 60 m3 methanogenic digester to produce biogas and digestate (to obtain solid fertilizers). The installed biogas line, which will be operated by the University of Valladolid (project partner), has an anoxic biofiltration system for hydrogen sulfide removal and a 286 m2 photobioreactor in which the biogas is converted into biomethane through a symbiotic process of microalgae and bacteria. This line also incorporates new biological technology to remove siloxanes (carbon and silicon compounds), which will extend the service life of the cogeneration engines during biogas combustion processes. The processes involved in the development of these bioproducts will be interconnected so that the facility proves to be a versatile and efficient biorefinery for the organic fraction of waste. Vista trasera de la instalación. Gasómetro para la regulación de biogás y digestores. Rear view of the facility. Gasometer for biogas regulation and digesters. Gestión y tratamiento de residuos | Waste Management & Treatment FuturEnviro | Julio-Septiembre July-September 2020 www.futurenviro.es 14
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